Stream-line flow valve



April 30, 1935.

J. L. ADAMS. JR

STREAM LINE 'FLOW VALVE Filed Dec. s, 193s 2 Streets-Sheet ll April 30,1935. J ADAMS JR 1,999,496

STREAM LINE FLOW VALVE 'Filed Dec. 8, 193s L 2 sheets-sheet 2 IN VEN TOR.

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Patented Apr. 30, 1935 unirse stores i, tireur orties l9.lll,4$ii STREAM-Im FLOW 'VALVE .lames L. Adams, Jr., Youngstown, @lilo Application December 8, 1933, Serial No. 701,456 2G Claims. (Cl. 137-139) My invention relates to the art of hydraulics, object to provide means whereby the valve may and particularly to the development of substanbe opened and closed Without contact between Water-now pertaining to the operation of my oscillation type hydraulic loclrs, of high-Iii t form, as shown and described in my copending application on Concl locks, Serial #700,550, led Decemloer 2nd, 1933, although the valves of my present invention are not necessarily limited to such use, or even to the control of Water as the-operative iluid, or work element. One object of my present invention is to provide an easily operated type of substantially balanced and stream-line flow valve readily adapted to manufacture in ultra-large dlameters Without introducing any serious mechanical or structural difficulties of construction. Another object is to provide a vulve as above, which at the saine time is adaptable to vary quick motion from zero to full-port opening and viceversa, thus very materiolly reducing the total loss of head commonly present due to Wiredrawing during tile periods of partiel port opening, in very large valves.

Another object of importance is to provide a seme, or the scope of my broader total mechanism cnerative to give precision closing at the exact end-of-ovv of any one oscillation, or swing, of the liquid content and its connected water-column, by precision timing means. Another material object is to provide moving valve elements which are substantially floated in place in the Water, by the application of buoyancy chambers, thus substantially relieving the bearings from the great weight of the rotor element. Another object of prime importance is to promeans.

Another object is to provide means for precision travel to exact open .and closed positions, respectively, thus obviatng stoppage at a partial port opening.

Yet an additional object is to provide convenient means for emergency/relief from waterilsmmer, preventing possible breakage of valve and associated connecting passages, in case ci' accidental wrongly timed closure occurring.

Still other objects will be self evident to anyone skilled in the art of valve construction rid operation, and the principles of hydraulics.

Y With all these and operating mechanism;

l Figure 2 a struction which ls more nearly balanced hydrof looking with the arrows. i

Figures 4 and 5 are similar transverse sections of Figure l, in closed and 'open port positions respectively, and taken on line Ill-V, again looking with arrows. Figures 6 and '7 illustrate similar area whatever.

Another essential object ls to provide a port'valve in which the division of ilows 1s such ance or thrusts in `any general direction, or at least reduce the sa e to a near approach to port openings, shows an odset View taken on the Another important object is to provide a valve une M VHL design in which direct contact metal-to-metal of the valvlng surfaces is avoided, thereby eliminoting the possibility of galling up of the surfaces in contact by the possible intrusion of sand, in the course ci normal operation. Y

.o vital object is a valve ln which the gasketelements are so placed as to tend to clean themselves oi all sand or other intrusions.

Another object is to provide Vfor take-up to compensate for Wear at the gaskets, and a further section line.

Figure 9 is an enlargement of a part of 4, to better' show the seal means.

Figure 10 shows in partial section and port elevation, the application of my valve of Figure 1 to one of the forms of high-lift twin-locks as similar view of an alternative con- Figure A direction of-the arrows, except bearings are so made as to covered by my copending application before mentioned. f

Figure 1l shows a wiring diagram particularly to my Figure 1 valve,

terable to apply. to the other types shown as alternative constructions, the gear, connecting-rod, and crank-arm elements shown being as viewed on the line XIII-XIII of Figure l, taken in the that relative shaft valve main-shaft of Figure l, lying positions are reversed, to get substantially in line with that adjacent thereto. Figure 11 also indicates the means provided to get precision 45 degree travel in main valve rotor, from 180 degrees of motion in the large driving gear and connected pin.

In all the figures the same' parts are designated by identical part numbers, and motions just completed, by solid direction arrows, that movement which is next to follow being indicated by the broken line arrows in every case.

Referring now more particularly to Figure 1, which shows my preferred construction, a plural part, and preferably axially sub-divisible main valve shell is indicated at I, with the associated easy hydraulic bend at 2 on the right, and on the left, a'further large diameter passageway 3 leading to a long and substantially horizontal water` column shown in a later figure. Suitable bolting means is provided to properly tie together the respective parts of the above, while within the shell I, and rotatably mounted for easy movement with respect thereto, is the main valve rotor 4, here indicated as of the four-porttype, of whichv the top and and 6 which are of full stream-line flow type stantially balanced hydrostatic operation, are shown in section, while rear, one port 1 of the 4similar but horizontally positioned pair can be made out, all providing hydraulic radii, without constricted areas at any point, and when open connecting up with the similarly designed external passage-ways 8 and 8, around th'e type rotor-mounting head I0, in l, by the wedge-shaped radialfins II and I2, shown in section in a later figure, and which narrow down toa knife-edge at about the number positions indicated.

-The metal parts between the ports 5, 8, and 1, on the rotor, similarly narrow down to knife edges at the I3, I4 positions to the left, where they. carry the closed, hollow, bulb-shaped buoyancy chamber I5, all of stream-line flow type, but of which only the right end'is shown on the drawings, because of space limitations. The righthand end of the rotor 4 carries the similar float I6, also of stream-line flow outline at its left, and together with chamber I5 designed t0 just float the entire rotor element of valve, so that the antifriction bearings I1, I8, preferably of ball-type, and of stainless-steel, will be substantially relieved of the tremendous weight of the moving rotor 4, such as will normally pertain to a preso sure valve attaining some 40 to 80 feet overall Note that the ballallow for some axial travel, to a small extent, with the inner race made entirely fiat, to permit ready removal of rotor to a considerable distance to one side, when required for inspection uses.

Laid in a grooved channel completely and closely surrounding the upper port or passageway 8, in the stationary element or Shell I, is the large diameter solid rubber gasket I3, preferably diameter, as for large locks.

crainkf in dotted outline to the 4 with one or more similar gaskets. 20 laid closely parallel thereto. A similar set, as 2|, 22, surround each of the other port openings, in turn, as better indicated on a later enlarged sectional view. Solidly bolted at 23, to the right end of rotor 4, is the large diameter shaft 24, which may be made hollow for approximate flotation in the fluid element, if desired, and will be rotatably carried in the lignum-vitae or other suitably lined bearing 24a, mounted in the stationary head I0. This shaft 24 is preferably, but not necessarily, coarsely threaded at 25, with its extreme right end solidly keyed to the long crankarm 2B, carrying the crank-pin 21, operatively connected with the long connecting-rod 28 through the spherical seat brasses 23, with similar brasses 30, mounting opposite end of rod upon the crank-pin 3|, carried by the 180 degree motion geared bull-wheel 32, in turn mounted upon very heavy shaft 33, within appropriate bearing 34, and driven by pinion 35, of motor 36, or an equivalent propelling element.

Shaft 24 is supported in its threaded portion 25 by the inside and outside threaded bushing 31, having its respective threads both of the same hand, but of slightly different pitch, and carried by the internally threaded boss 38, in shell 2, bush 31 being solidly keyed to the large diameter spur gear 39, rotatable by the long pinion 40, suitably mounted for rotation by motor 4I, provided for the gasket tightening adjustment of valve, although it may be used for the actual final seating of the valve at the end of each throw, if desired, and again for longitudinally breaking the seal, just before each opening thereof, so that the valve motion proper will be substantially non-frictional throughout.

Note that the float opening I6 really extends pretty well into the shaded area to the right, as indicated by dotted outline, but that in the figure the section happened to come in the centre of a relatively thin rib 42, similar to that shown at 43, just below, which is degrees therefrom.

Also note that opposite maximum diameter of float-chamber I5, at left of figure, the walls of passage 3 should be bulged outward somewhat, to maintain uniform areas.

Opposite connecting-rod 28, the solid arrow marked O refers to the opening direction of motion, while the broken arrow C indicates the direction of -valve closing, for said connectingrod. In order to accurately control the precision closing of the valve ports 5, 6, 1, and others4 which may be present, at the exact moment of zero-flow of the water-column concerned, so as to reduce to an ultra minimum all loss of head in the canal lock as due to this cause, 1 have provided at 44 a device for this purpose, comprising preferably a freely swung vane ofv considerable area, carried by Une easily rotated shaft 45, properly mounted by anti-friction bearings of usual type in the shell 2, outside which said shaft has keyed upon it the swinging arm 46, mounting at its end the insulating roller 41, contacting at the position shown only, with the suitably bent spring 48, operative to close the normally open contacts 49, properly mounted on the insulating base 50, and connected by the leads 5I with the electrical control to be described in connection with a later shown -to the left of Figure 1. Also pendulum 52 in its show: position, but which with full now of the liquid in thedirection of the solid arrow, permits 44 to deflect temporarily to the O position, for

the reversed full now, as per broken line arrow, Although not entering into my present invento the position, while during thelgradual detion directly, but necessary yto a complete undercrease of ow at ends oi' these respective waterstanding oi' the requirements to be met' thereby, column movements', vane 44 gradually drops back I have shown in Figure 10 a transverse section its C" point, as the case may be, at which latter 22, |23 oi' the Ahigh-lift type, and suitable for C' and C" points, the contacts 49 close, and the canal use, with the valve I of Figure 1 indicated Signal goes thru over leads to start the valve by dotted lines, as being located in the more closing mechanism, so that by the time the water distant background, and about in the mid-length l0 motion has cometo exact zero, the closure will of the long and substantially circular length of 10 have been brought about, the exact position oi water-column,l |24, 25, connected with the re- C' and C" required, being determined once for spective locks thru the Venturi sections |26 and all by actual trial, and contact spring 48 set |21, respectively, and both of very easy diver-v accordingly. 'Through asllltable Opening 53, into sence angles, as a plan view would show. 'Ihe l5 head a moderate sized pipe (not shown) is run major length of the water-column |24. |25 inthe 15 to a point outside the valve casinsnd across to extreme background, is of the section indicated connect with interior 0T left-hand connecting at |28, however, and the ligure shows the respec- Shell 3, through en appropriate opening Similar tive water heights, |23, |30, at the end of a comto 52, and 8.11 provided for hydrostatic balance plete swing into the left-hand lock |22, as indi pul'pOSeS, to Substantially eliminate the greater cated by the solid-line arrows. For further de- 20 portion of the end thrust upon the rotor 4, when 13ans the 0.pending application previously rein its closed position. ferred to may be consulted.

In Figure 2, e type 0f rotor 4' is shown, in Which In Figure l1 I have indicated partly as ,a wirthis end-thrust may be brought down to substaning diagram, and partly asa skeleton outline of tially Zer if desired, by 8 piping oonneotion 'directly operated elements, the means proposed 25 Similar to that J'llst described above, but this type for attaining substantially automatic control of 0f Valve is difficult i0, adjust tu compensate for valve-rotor 4 of lFigure 1, for precision quick any wear or lack of tightness in its gasket system, closing of the ports at the exact end of swing of because it is Parallel sided, and not Coned, as was the water-column |24, |25, of Figure 10. Here I the Previous gure. V have indicated the incoming power lines |3|, 30 It looks as though a compromise between the which may be of any convenient type, but shown steep Con-lng of Figure 1, und the Parallel-Sided as direct-current i'or simplicity," connected rotor of Figure 2, would be the nally preferred through the main control switch |32, whose rightconstruction, giving Substantially complete hyhand outgoing line connects both to signal con-v 3" dlstutic end-balance. as Well as a sumiellt tact 43, and to the points indicated on reversing 3.5 amount 0f sealing-Seeket adjustment n# points contacter |33, including one end of operating i9, 20, 2|, 22, and SCJ-forth, around the lelneining shunt coil |34, whose remaining end leads to the ports not shownin Figure l. Y O or opening throw of the selector switch |35, supplementing parts shown in vFigure 1, and shown closed in this direction, thereby connect` 40 also applicable to the latter, if desired, I- have ing toy one side or contacts ne, which have just 40 shown in Figure 2 the fairly large vdiameterbybeen opened by completion of the opening-up mo-l pess passage 54, 01' substantinlly stream-line 00n tion to hring the valve to position shown in Figstruetion, and containing the` two well dished and ure 1, whereby insulating roller |31 has been opposed thin metal diaphragm 5l,v ll, tightly contacted with projecting pin |38, mounted upon gasketed -with rubber where boltedtothe inside oi' gear 32, -i'orcing contacts |36 apart, and 45 i wardly proieotmg circuler rings 51. Il, integral opening circuit `through coil |34, which up'to this With by-pass 54, said diaphrms 55, 5I being point had been closed through line |39-toleftfside deeply Scored radially t0 abont% thieknesaalong ofl switch |32. Contactor |33 therefore, under the lines 59, 60, or some equivalent pattern, to the innuence ci' the return spring un, and suit- 50 make sure 0f e full-opening break in oase of ably retarded to prevent o running; Vby the 50 emergency-operation under water-hammer condash-pot |4|,y opens to position shown.l .ditiona this provision not being made fol' eX- Valve rotor 4, oi'- Figure l, being now in its full peeted probabilities, but just in ease of some `open position, as there shown, the water-column break occurring in 'the Valve-functioning meohn promptly gets under way, de'ecting vane 44 until nism, or its connected parts. y contacts open up, and quenching pilot-light 55 Ii' either diaphragm 5l, or 5B gives way, the |42, connected between the return line of circuit other will surely el'ulnple up and follow. but 5ii' 6|, and return side |39, of switch I 32; any attempt is made to substitute a single at Ii' operator wishes valve to close automatically l partition here, this will weave back and forth at the end oi' this present swing of the liquid, then considerably, with each oscillation oi thewater, assoon as pilot light its extinguishes, indicat- 60 and almost surely break eventually, without the ing that signal contacts 49 have opened up, he required water-hammer cause, while the diathrows selector switch |35 to the left-hand or 1| w r oi my construction shown, will not .so C position, and leaves it .there for the present. wve and fracture, and hence will not break As this swing of the water-column now dies from its `O to its C position, orirom its O" to of one form of my twin oscillating lock system, -5

under noloperating conditions, if given a down and approaches zero suiiiciently, contacts 65 factorof=saiety as to thickness utile again close at proper instant, permitting a v l circuit to be traced from right side of switch |32," Note that the by-pass passage 34 need not be through the leads hi, and contacts t9, back to here t r as large as the entering portion and thru pilot light itt?, illuminating it, and also A 'm of main valve shell i, because considerable to and through left-hand or closing shunt coil 7",

velociti. in he., and therefore irictional effects, M3, thru the now closed C or closing side of are desi in case oi a diaphragm break. selector switch ith into the normally closed con- In Figur@ s to e, inclusive, no new parts apby the insulating roller |45 t-it. s 1 It; identifications, except the renewis wear-strips We.

N3, on return side of s conrector m to snap 7,5

, as before, to and open location,

' cbserved that shaft over to the left, or closing side, whereupon a circuit is formed from right side of switch |32 to lower left-hand s et of bridging contacts on |33, out through line |46 as indicated by the dotted arrows, through armature |4|, back through line |48 as per the dotted arrows, through the left upper bridge contacts of contactor |33 and lead |49 to motor series coil |56, and out through conductor to line |39' again, on left-side of switch |32, causing motor 36 to start up, and through pinion 35 drive gear 32 in its dotted arrow or clock-wise direction, or until 3| at top has been brought to the 3| bottom' position, carrying connecting-rod 28,and crankarmV 26 along with it, thereby swinging shaft 24 through the required precise 45 degrees to close all the ports in valve-rotor 4, connected thereto.

This travel of gear 32 also brings pin |33 around into contact with roll |45, opening up vcontacts |44, causing contactor |33 to return to mid-position, and shutting down motor 36, until such time as selector switch |35 may be again thrown to its right-hand or opening position, whereupon the originally mentioned circuit may be traced from switch |32 through its right side to opening Vcoil |34 on contactor 633, on to O side of switch |35, as shown, through contacts |36, now closed, as pin |38 is 180 degrees away, and back to lead |33, and left-side of switch 32, pilot light |42 being likewise illuminated, since contacts 49 are closed, at the start. Contactor |33 now promptly closes to the right, permitting a circuit to be traced from right side of |32, across to upper right bridge on |33, through line |48, and now in the solid arrow direction to armature |41, 'back thru line |46 to lower right bridge of |33, up and through lead |49 in same direction thru series coil |53, and back thru line |5.| to lead |39, on left side of switch |32. Since armature circuit only has been reversed, motor 36 will reverse also, carrying crank-pin 3| bottom to its 3| top position, and stop pin |38 back to position shown, opening up contacts |36, and stopping motor here.

The crank-arm 26 being now again in its full valve permits the water-column to get under way promptly, the signal contacts 49 open up once more, extinguishing the pilot light |42, and thereby signalling operator that he may throw selector switch |35 again' to the left or closing" position as soon as convenient, thus again setting up the properconditions for succeeding automatic stop, as the water-column again slows down in velocity toward zero value.

If preferred, the signal contacts 49, and the pilot light |42 may be used to give the proper timing signal to operator, and the switches arranged for his direct manual control, without the automatic-contactor features, the contacts |36 and |44 being then utilized to operate signal lights for his guidance, as a simplified alternative construction.

Switch |32 would of course be placed in a suitable metal housing, under lock and key, so as to avoid any tampering with the system by unauthorized parties. Reverting for a moment to Figure 1, it will be 24, and with it the valverotor 4, screws in a little during opening and out again on closing, so that the .moment the rotor starts to open its ports, the pressure on the gaskets therearound releases, resulting in a minimum of wear. and with the sequence reversed during the closing operation, for the same reason.

Note that the connecting rod 28 was given ball brasses 29 and 30, in order to permit this limited amount of swiveling action, and that if found preferable, the rotor may be completely closed without its gaskets being brought into contact at all, the latter being then promptly effected by operating motor 4|, gear 39, and its keyed sleeve or bushing 31, dis-similarly threaded on inside and out, as heretofore noted, this process being carried through in reverse for Such methods of decreasing the frictional contact and wear, are believed to be very important in valves of the great size contemplated herein.

Note that the grooves cut for reception of all the solid rubber gasket-rings shown, are carried well past the mid-diameter of ter shown in Figure 9, so that the rings tendto stay-put in proper place, but yet may be easily forced into the groove, or yforcibly pulled out if required, for replacement, or shift to a new operating position, after wear.

These rings have been shown and described as solid, but they might conceivably be vmade hollow, like a heavy walled balloon` tire, if preferred.

In the operation of the valves of my present invention, ity will be observed that they have many excellent features such as rotational advance of the immediate valving elements, the luse of gasket seal-rings throughout, the full streamline flow passages of substantially constant crosssection throughout, as provided at the open position, substantially floated moving elements, the ready application of water-hammer relief means, and the substantially straight-line iiow design.

At full open position, as wellas at all operating positions, they are substantially balanced hydrostatically, mechanically, and as to weight, so that they are ultra easy to either open or close, .and they provide for an tionV and wear, aswell as of possible galling up of opposed metal surfaces, while Figure 1 is easily compensated for wear by adjustment.

The rotors in Figures 1 and 2 may be uncoupled, and shifted to the left as far as required, as inside the shell 3 of Figure 1, for ,any inspection or repair purposes, after draining the waterpassages by any suitable well known means.

Thus it will be observed that-in the operation of the valves of my invention, certain very deflnite advantages accrue from their substantially straight-line, and stream-line flow construction,

'with constant cross-sectional areas throughout,

when at full open position, their substantial absence of sudden offsets or sharp bends and twists, productive of eddies and resultant friction losses, their easy operation, under substantially full-floating balance at all times, and the minimized friction and wear, with no metal-tometal contacts at the port areas, and the simple means for protection from possible water-hammer. In addition, the wearing elements are readily replaceable, or capable of easy re-surfacing, as the case may be, and all ball-bearings are of the rustless-steel or equivalent alloy type.

For somewhat related valves, applicable to the same uses as those above described, reference may be made to my co-pending divisional application, Serial #742,945, iiled September 6th, 1934.

Under the tremendous total hydraulic pressures developed over the necessary port areas of valves of a size appropriate to the use here intended, the customary gate-valve becomes a 0pening.

the latter, as bety ultra-minimum of fric-- physical impossibility,

both as to its structure, and its opening-up under pressure, as well asto the considerably greater eddy losses as compared ywith the valves of my invention, and it is vastly slower in its action, again making it impractical for the purpose intended.

Having shown and described preferred and alternative embodiments of niv invention, and described its mode of operation, under the intended use, what I claim is:

1. In a uid control valve, a'horizontally rotatable and substantiallycircular-sectioned valveelement of the substantially, floated type, a stationary enclosing-shell providing therebetween at the full open position a substantially streamline and nearly straight-line passageway for the operative iiuid, said passageway being of substantially constant transverse cross-section throughout, and a precision-throw valve-rotating means providing quick-opening to and closing from exact full-port position.

2. In a iluid control valve, a substantially floating valve-element, power propelling means therefor, providing both longitudinal and rotational motions. concomitantly in said valve-element, and a stationary enclosing shell for said valveelement and providing therebetween at the full open position of valve a substantially streamline passageway of substantially constant crosssection throughout.

3. In a uid oated valve-element, combined longitudinal and rotational propelling means therefor, of precision travel type, and applicable to and from successive open and closed positions of said valve-element, an' enclosing shell forming at open position a. substantially stream-line and nearly straight-line passage around said valveelement, elastic seating-elements embedded in said enclosing shell but slightly protruding from the seating surfaces thereof, and included means providing high compression of said seating-elements at the"closed position of valve.

4. In a iiuid control valve, a rotatable and substantially floated valve-element, an enclosing shell therefor, said shell and said valve-element providing a substantially stream-line passage therebetween at full open position of valve, said passage being of substantially constant transverse cross-section at successive positions therealong, and co-operating signal means operatively connected with a power closing means on said valve, and determining the time of closure thereof.

A5. In a uid control valve, a substantially floated and readily rotatable valve-element, power means providing longitudinal progression concomitantly with rotation thereof, an enclos` ing shell around said valve-element, and providing a substantially stream-linev passage therebetween at the open position of valve, elastic seating-elements on said shelland for said valveelement, and included means providing immediate release of compression on said seating-elements as valve startsv to open.

6. In a fluid control valve, a substantially oated and power-propellable valve-element ofv the rotating type, an enclosing shell therefor which provides at full open" position of valve a. substantially stream-line passage therebetween oi substantially constant cross-section, and propelling means applied to give a precision throw to said valve-element, and rotationally operative substantially on vlongitudinal axis of said shell control valve, a substantially .ing means and and between separatedbpen and closed positions .of said valve.

7. In afluid control valve, a substantially oated and essentially circular valve-element, an enclosing shell providing a substantially streamline passage therebetween at about full "0penV position of valve, and a power-propelling means applied to said valve-element and providing longitudinal advance thereof concomitantly with rotation of said valve-element open and closed positions.

8. In a iluid control valve, a substantially oated and essentially hydrostatically-balanced rotatable valve-element, an enclosing -shell providing at full open position of valve a substantially stream-line valve-element to open and close successively as desired, and a around said valve.

10. In a fluid control valve, an essentially circular cross-sectioned valve-element, an enclosing shell therefor, said shell providing a substantially stream-line and constant water-cross-section 'passageway therebetween at the open position of valve, and quick-acting power-shifting means applied to said valve-element, and operative to give both rotational and longitudinal motion thereto, and to elastically compress the sealing means provided at "closed position of-valve.

11. In a uid control valve, a valve element, an enclosing shell therefor, said shell providing a substantially stream-line passageway therebetween at open position of Valve, power-shifting means applied operatively to said valve-element, and a signal control applied to said power-shiftdetermining closure of substantially minimum Huid-velocity conditions.

control valve, a rotatable multiport valve-element mounted in substantially hydrostatic and weight balance, an enclosing shell providing a substantially stream-line and nearly straight-line passageway therebetween at full open positions of valve, power means operable to give vprecision angular motion to said valve-element between open and closed positions, and yautomatically re-setting water-hammer protective means applied to said enclosing shell for safety purposes. 'e

13. In a iiuid controlvalve, a lmovable valveelement, an enclosing shell providing a substantially stream-line and constant-section passageway throughout 'at near open positions of valve, valve-element' shifting-means, controlsignal means connected to said shifting means and determining the closure of valve-element at CTI being of substantially constant transverse crosssection at successive through said valve when at the open position, and connected quick-acting power-means operable to close oif said valve substantially at the instant of zero flow of the operative fluid, under the control of a velocity indicator mechanism connected thereto.

15. In a fluid control valve attached to an oscillating canal lock system, va valve-unit, at-

tached power-means providing quick mechanicalv closure of said valve-unit, and a velocity-fall indicator attached to said system and connected with said power-means, said indicator including means pre-determining the low velocity of contained liquid at which closure of said valve-unit is initiated.

16. In a fluid control valve applicable to an oscillating Water-column, a valve-element, an enclosing shell providing a near stream-line passage therebetween, power-means applicable to quick-closure of said valve, connected controlmeans governing the start of said power-means, said control-means including a precision indiy cator of minimum water-now velocities, operatively co-ordinated with said power-means. 17. In a fluid control valve applied to an oscillatingv water-column system, a substantially floating and nearly hydrostatically balanced valveelement, an enclosing shell providing at full open position of valve a nearly straight-line f and nearly stream-line passageway therebetween, attached power-shifting means providing precilongitudinal positions sion quick-opening of said valve to precise full open position, and similarly precise quickclosure in order to minimize wire-drawing friction losses, said closure being under control of a connected low-velocity indicator, operatively connected with said power-shifting means.

18. In a uid control valve, quick-acting powermeans applied to the moving element thereof, and a low-velocity indicator applied to the liquidnow channel, said indicator being operatively connected with said power-means', and including a control-means determining the instant of closure of said valve by said power-means.

19. In a fluid control valve, a movable valveelement, connected power-means determining precision travel of said Valve-element to fully open and fully closed positions successively, and each at high-speed so as to minimize wiredrawing and resultant loss of head, said power-means being under manual control during opening of valve, and successively under manual and automatic liquid-velocity controls during the closing operation.

20. In a fluid control valve, a substantially floated valve-element mounted in approximate hydrostatic balance an enclosing shell containing seat-rings of elastic and compressible non-metallic material, and power-shifting means applied operatively to rotate said valve-element, and providing compression contact thereof with said seatrings at substantially the closed valve positions only.

JAMES L. ADAMS, JR. 

